Ocular surface and meibomian gland evaluation in euthyroid Graves’ ophthalmopathy

Purpose Euthyroid Graves’ ophthalmology (EGO) refers to the subgroup of thyroid eye disease patients with distinct clinical presentations. This study evaluated the ocular surface and meibomian gland changes in EGO patients. Methods A cross-sectional study was conducted at The Chinese University of Hong Kong including 34 EGO patients and 34 age-and sex- matched healthy controls. Outcome measures include anterior segment examination, keratographic and meibographic imaging. Results Between 34 EGO patients and 34 age and sex-matched healthy controls, EGO was associated with a higher ocular surface disease index (P < 0.01), higher severity of meibomian gland dropout (upper: P < 0.001, lower: P < 0.00001) and higher percentage of partial blinking (P = 0.0036). The worse affected eyes of the EGO patients were associated with corneal staining (P = 0.0019), eyelid telangiectasia (P = 0.0009), eyelid thickening (P = 0.0013), eyelid irregularity (P = 0.0054), meibomian gland plugging (P < 0.00001), expressibility (P < 0.00001), and meibum quality (P < 0.00001). When the two eyes of the same EGO patient were compared, the degree of meibomian gland dropout was higher among the worse affected eyes (upper: P < 0.00001, and lower: P < 0.00001). Tear meniscus height, lipid layer thickness, and noninvasive break-up time were comparable between the two eyes of EGO patients and also between EGO patients and healthy controls. TMH was positively correlated with the degree of exophthalmos (r = 0.383, P < 0.05). Conclusion EGO patients have more ocular surface complications and meibomian gland dropouts than healthy controls. Almost 60% of them had dry eye symptoms, but aqueous deficiency was not apparent. Further studies are warranted to clarify the mechanism of dry eye in EGO. (249 words).


124
Page 2 of 8 Vol:. (1234567890) P < 0.00001).Tear meniscus height, lipid layer thickness, and noninvasive break-up time were comparable between the two eyes of EGO patients and also between EGO patients and healthy controls.TMH was positively correlated with the degree of exophthalmos (r = 0.383, P < 0.05).

Introduction
Thyroid eye disease (TED) is an inflammatory orbital disease that is commonly associated with autoimmune thyroid disease that can occur in both adults and pediatric patients. 1Euthyroid Graves' Ophthalmopathy (EGO) is the subgroup of TED patients who present with normal thyroid function and without a history of thyroid dysfunction or antithyroid treatment. 2,3The prevalence of EGO in TED patients varies from 0.9% to 15.4% among different populations. 4In comparison with TED, EGO is associated with more males, lower clinical activity scores, and more asymmetrical presentation.It was associated with less soft tissue inflammation, bigger exophthalmos difference, and lower risk of optic neuropathy. 6,7ue to the low incidence and distinct clinical characteristics with normal thyroid function examination, the diagnosis of EGO is often challenging.
Dry eye disease is a multifactorial disease involving the tears and ocular surface that results in ocular discomfort, visual disturbance, and tear film instability. 8It poses an impact on the quality of life if not properly treated and managed. 91][12] Lacrimal gland expresses thyroid-stimulating hormone receptors, and in TED endocrine complications may lead to aqueous deficiency dry eye. 13Overexpression of pro-inflammatory cytokines was associated with the changes in ocular surface homeostasis among TED patients. 14eibomian gland dysfunction results in evaporative dry eye, and both glandular dropout and thicker lipid layers were found in active and inactive TED patients. 15Despite the intriguing relationship, the mechanism of the development of dry eye disease in TED is not completely understood.EGO is a subtype of TED with milder clinical manifestations.The ocular surface changes of EGO have not been reported.In this study, we evaluated the ocular surface and meibomian gland changes in EGO patients.

Methods
This is a cross-sectional study including 34 EGO patients and 34 healthy controls.The ocular surface evaluation for the EGO patients and healthy controls were performed at the Chinese University of Hong Kong between July 2022 and December 2022. 16he EGO patients were all managed at the Thyroid Eye Clinic at The Chinese University of Hong Kong between September 2007 and July 2021, and the healthy controls were recruited from a community eye screening program at the Chinese University of Hong Kong.16 All healthy controls were sex-and agematched, without a history of systemic inflammatory disease, inflammatory disease, neoplastic disease, ophthalmic disease, and received ocular treatment including any surgery, topical eyedrops, or contact lenses in the past 12 months.This study was approved by the Institutional Review Board.Written informed consent was obtained from every individual participant, and all study procedures conformed to the tenets of the Declaration of Helsinki.
The diagnosis of TED was made by the oculoplastic surgeons based on Bartley's criteria 17 .EGO was confirmed and classified with the support of orbital images, 18 (computer tomography or magnetic resonance imaging), serological evidence of thyroidrelated antibodies (TRAB, TSI, TPO, or TG), and histological features compatible with TAO 19 .All EGO patients must also fulfill the following criteria: 1. Normal Triiodothyronine (T3) and thyroid stimulating hormone (TSH) within 12 months after EGO onset.2. Without a history of thyroid dysfunction.3. Without a history of prior treatment for autoimmune thyroid disease.4. Without radiological evidence of orbital mass.

Ocular surface evaluation
Slip-lamp examination was performed by one of the two masked ophthalmologists on the following nine meibomian gland dysfunction items: corneal fluorescein staining, lid telangiectasia, lid margin thickness, eyelid margin irregularity, lid-parallel conjunctival folds, papillae, meibomian gland plugging, meibomian gland expressibility, and meibum quality. 20xford Scheme was used to grade corneal fluorescein staining. 21Lid margin telangiectasia was graded on a scale from 0 to 3: 0 = no lid margin redness or telangiectasia, 1 = redness in the lid margin, and no telangiectasia crossing the meibomian gland orifices, 2 = redness in lid margin and telangiectasia crossing meibomian gland orifices moderate telangiectasia or redness, and 3 = severe telangiectasia or redness. 22id margin thickness was graded on a scale from 0 to 2, i.e., 0 = no thickening, 1 = lid margin thickening with or without localized rounding, and 2 = lid margin thickening with diffuse rounding. 22Eyelid margin irregularity was graded from 0 to 2: 0 = no irregularity, 1 = fewer than 3 lid margin irregularities and shallow notching, and 2 = three or more lid margin irregularities or deep notching. 22Lid-parallel bulbar conjunctival fold was graded on a scale from 0 to 3: 0 = without fold, 1 = single small fold, 2 = more than two folds, and not higher than the tear meniscus height, 3 = multiple folds and higher than the tear meniscus. 23Papillae were graded using the papillaelimbal corneal epithelial score. 24Meibomian gland plugging was assessed using the scale from 0 to 3: 0 = no plugging, 1 = fewer than three pluggings of gland orifices, 2 = three or more pluggings of gland orifices with a distribution of less than half of the full length of the eyelid, and 3 = three or more pluggings of glands orifices with a distribution of half or more of the full length of the lid. 21Meibomian gland expressibility was graded from 0 to 3 based on the central 8 meibomian glands of the lower eyelid: 0 = all glands expressible, 1 = 3-4 glands expressible, 2 = 1-2 glands expressible, and 3 = no gland expressible. 25Meibum quality was graded on a scale of 3: 0 = clear, 1 = cloudy, 2 = cloudy with debris, and 3 = inspissated, toothpaste-like. 25ubjective dry eye symptom was measured using the Ocular Surface Disease Index (OSDI) 12-item questionnaire. 26Baseline tear production was measured by Schirmer's test without topical anesthetic. 27he noninvasive tear film break-up time (NITBUT) and tear meniscus height (TMH) were measured using a corneal topographer with a built-in real-time keratometer (Oculus1 Keratograph 5 M, Oculus Inc, Arlington, WA).Lipid layer thickness (LLT), partial blinking (PB) rates, and meibography were obtained using the tear interferometer (LipiView1, TearScience Inc, Morrisville, NC).The meibomian gland dropout was measured from the meibograph using the ImageJ software.The area covered by tarsal conjunctiva and meibomian glands dropout was segmented using a freehand tool by two independently trained masked observers, and the average was used for data analysis.The degree of meibomian gland dropout was measured by dividing the meibomian gland dropout area by the total area of the tarsal conjunctiva.
Numerical results were presented as mean ± standard deviation (SD) and range unless otherwise stated.The comparison of ocular surface evaluation between EGO patients and healthy controls.The worse affected and less affected eyes of EGO patients were measured using the paired T test.The worse affected eye was confirmed by 1 ophthalmologist by reviewing  1.
We compared the worse affect eyes of EGO patients with the right eyes of controls, the degrees of corneal staining (P = 0.0019), eyelid margin changes including telangiectasia (P = 0.0009), thickening (P = 0.0013), irregularity (P = 0.0054), meibomian gland plugging(P < 0.00001),  2).EGO eyes were found to have a higher degree of meibomian gland dropout (upper: P < 0.001, and lower: < 0.00001).EGO patients had higher scores on the ocular surface disease index (OSDI) (P < 0.01).EGO patients had a higher percentage of partial blinking (P = 0.0036) (Table 3).We also compared the worse affected eyes with the better eyes among the 34 EGO patients.

Discussion
In this cross-sectional study, meibomian gland dropouts were more severe in both the upper and lower eyelid of EGO patients when compared to controls.Notably, the degree of the dropout was more severe in the worse affected eyes in EGO patients.Clinical signs of meibomian gland dysfunction were found associated with EGO patients.EGO patients had a higher percentage of partial blinking.TMH was positively correlated with the degree of exophthalmos.EGO patients were associated with a greater degree of dry eye symptoms, and up to 58% score over 12 on the OSDI questionnaire.Dry eye disease is the most prevalent ocular surface complication.It is long known to have a close relationship with TED, and ocular surface changes were reported in up to 85% of patients. 8,10Our study found 58% of EGO patients had at least mild ocular surface disease according to the OSDI questionnaire, and they had a higher degree of partial blinking.A normal blinking motion protects the ocular surface and serves as a pumping force to secrete the meibum to form the lipid tear layer. 28Chronic incomplete blinking may result from eyelid retraction and exophthalmos which can result in obstructive meibomian gland obstruction.Park et al. compared TED-related dry eye disease patients and non-thyroidal dry eye patients and showed that both incomplete blinking and meibomian gland dropout were associated in TED patients. 12One explanation for the normal lipid layer thickness despite an increased meibomian gland dropout was the compensatory effect as the meibomian glands may secrete meibum at an enhanced level to maintain the lipid layer. 29,30It is also possible that the remaining meibomian glands were sufficient to secrete meibum into the tear film. 31eibomian gland dysfunction is a common and multifactorial chronic ocular surface condition.Wang et al. reported meibomian gland dropout in both active and inactive TED patients. 32In 53 active Thai TED patients, there was a higher meibomian gland dropout than healthy controls, and the area of dropout was correlated with euthyroid status and lagophthalmos. 33In a study on 19 Japanese TED patients, all had obstructive meibomian gland dysfunction. 34The mechanism of meibomian gland structural changes in TED is complex and multifactorial.Chronic eyelid inflammation may destroy the glandular epithelium, and mechanical compression from soft tissue expansion may result in meibomian gland atrophy. 15In this study on Chinese EGO patients, up to 44% of them initially presented meibomian gland atrophy unilaterally.We also found that the degree of meibomian gland dropout was higher in those worst affected eyes, which may suggest a relationship between the degree of dropout and EGO disease severity.
The lacrimal gland expresses the receptors of thyroid-stimulating hormone, which may contribute to TED-related dry eye disease in those with lacrimal gland impairment. 35Kashkouli et al. reported that in 38 Iranian moderate to severe TED patients, there was an aqueous deficient type of dry eye with reduced tear break-up time and Schirmer test. 36Recently, we found occurrence of evaporative dry eye disease in Chinese TED patients. 37Huang et al. investigated the tear samples of Chinese TED patients and found the concentration of interleukin 1β, 6, and 8 was found higher in TED patients than controls, and TED patients were associated with a short tear break-up time and Schirmer test. 14On the contrary, the Chinese EGO patients in our study did not show any difference in tear meniscus height noninvasive tear breakup time and Schirmer tear, clearly indicating absence of aqueous deficient component in EGO eyes.EGO is a subgroup of TED with distinct clinical features.EGO is more prevalent in males, associated with lower disease activity, and more asymmetrical. 5he activation of thyroid-stimulating hormone receptors induces the pathogenesis of both Graves' disease and TED.EGO presents with a normal thyroid function, and the targets are tissue cells in the eye and the orbit.The absence of aqueous deficiency in our study indicates a specific pattern of ocular adnexal targets between TED and EGO patients. 37xophthalmos in TED patients is related to hyaluronan deposition, leading to extraocular muscle (EOM) enlargement, mononuclear infiltrations, and orbital soft tissue expansion behind the eyeball. 38xophthalmos can impair the blinking mechanism and incomplete eyelid closure in those with severe diseases.Our study showed a positive correlation between the TMH and exophthalmos level.This could be explained by the excess aqueous production as the body attempts to compensate for the poor ocular surface.In addition, EGO patients with severe exophthalmos can also affect the tear drainage system, which can lead to an accumulation of tear at the lower eyelid margin.
There are several limitations in the current study.First, the number of EGO patients included was relatively small. 39Second, conditions that may affect the ocular surface condition such as psychiatric disease, poor sleeping quality, and computer vision syndrome were not assessed in our EGO patients and healthy control.Third, this is a cross-sectional study without follow-up data.Forth, the associations that may affect the degree of ocular surface parameters such as lacrimal gland dimension, corneal sensation, and corneal biomechanics were not evaluated.Fifth, proportion of the EGO patients have received treatment such as orbital radiotherapy and orbital surgery that may affect the ocular surface. 40Our data serves as a reference for future prospective cohorts or clinical trials to study the dry eye characteristics in EGO patients.In summary, up to 58% of EGO patients had at least mild dry eye symptoms.Both meibomian gland dropouts and partial blinking were associated with EGO patients.Aqueous tear deficiency dry eye is absent in EGO patients.Early treatment should be commenced for EGO patients with unstable tear films, especially those with more severe disease severity.Moreover, the mechanism of dry eye disease in EGO should be further explored.

Table 1
Clinical information of euthyroid Graves' ophthalmology (EGO) patients on presentation

Table 5
The correlations between EGO parameters with dry eye parameters (worse eye) Vol.: (0123456789)